We present a direct experimental demonstration that spatial beam self-cleaning in nonlinear multimode graded-index optical fibers arises from the nonequilibrium evolution of the mode population toward a state of thermal equilibrium. This process is shown to be a result of the maximization of the optical entropy of the modal distribution. Entropy maximization is observed both when the input beam power is increased with a fixed length of fiber, and when the fiber length grows larger while keeping the input beam power constant.
Spatial beam self-cleaning: from non-equilibrium to thermalization of nonlinear multimode fiber modes
Mangini, Fabio;Gemechu, Wasyhun;Kharenko, Denis;Couderc, Vincent;Wabnitz, Stefan
2025-01-01
Abstract
We present a direct experimental demonstration that spatial beam self-cleaning in nonlinear multimode graded-index optical fibers arises from the nonequilibrium evolution of the mode population toward a state of thermal equilibrium. This process is shown to be a result of the maximization of the optical entropy of the modal distribution. Entropy maximization is observed both when the input beam power is increased with a fixed length of fiber, and when the fiber length grows larger while keeping the input beam power constant.File in questo prodotto:
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